We study the existence and stability of localized activity states in neuronal network models of feature selectivity with either a ring or spherical topology. We find that the neural field has mono-stable, bi-stable, and tri-stable regimes depending on the parameters of the weighting function. In the case of homogeneous inputs, these localized activity states are marginally stable with respect to rotations. The response of a stable equilibrium to an inhomogeneous input is also determine
Neural continuum networks are an important aspect of the modeling of macroscopic parts of the cortex...
electrophysiological studies in monkeys have consistently identified persistent neural activity in t...
We investigate the modes of oscillation of heterogeneous ring-networks of quadratic integrate-and-fi...
The formation of spatially localized activity profiles, or “bumps,” has long been proposed as a mech...
Abstract Persistent activity in neuronal populations has been shown to represent the spatial positio...
Modeling studies have shown that recurrent interactions within neural networks are capable of self-s...
Pattern formation, i.e., the generation of an inhomogeneous spatial activity distribution in a dynam...
We investigate a two-population neuronal network model of the Wilson–Cowan type with respect to exis...
We investigate a two-population Wilson–Cowan model extended with stationary and spatially dependent ...
AbstractThe concept of bell-shaped persistent neural activity represents a cornerstone of the theory...
<p>The profiles are obtained from the steady state distributions in variable <i>x</i><sub>1</sub> fo...
This dissertation studies a one dimensional neural network rate model that supports localized self-s...
Neural mass models are ubiquitous in large scale brain modelling. At the node level they are written...
Complex activity in biological neuronal networks can be represented as a sequential transition betwe...
International audienceRing networks, a particular form of Hopfield neural networks, can be used in c...
Neural continuum networks are an important aspect of the modeling of macroscopic parts of the cortex...
electrophysiological studies in monkeys have consistently identified persistent neural activity in t...
We investigate the modes of oscillation of heterogeneous ring-networks of quadratic integrate-and-fi...
The formation of spatially localized activity profiles, or “bumps,” has long been proposed as a mech...
Abstract Persistent activity in neuronal populations has been shown to represent the spatial positio...
Modeling studies have shown that recurrent interactions within neural networks are capable of self-s...
Pattern formation, i.e., the generation of an inhomogeneous spatial activity distribution in a dynam...
We investigate a two-population neuronal network model of the Wilson–Cowan type with respect to exis...
We investigate a two-population Wilson–Cowan model extended with stationary and spatially dependent ...
AbstractThe concept of bell-shaped persistent neural activity represents a cornerstone of the theory...
<p>The profiles are obtained from the steady state distributions in variable <i>x</i><sub>1</sub> fo...
This dissertation studies a one dimensional neural network rate model that supports localized self-s...
Neural mass models are ubiquitous in large scale brain modelling. At the node level they are written...
Complex activity in biological neuronal networks can be represented as a sequential transition betwe...
International audienceRing networks, a particular form of Hopfield neural networks, can be used in c...
Neural continuum networks are an important aspect of the modeling of macroscopic parts of the cortex...
electrophysiological studies in monkeys have consistently identified persistent neural activity in t...
We investigate the modes of oscillation of heterogeneous ring-networks of quadratic integrate-and-fi...